RU2765068C1 - Combined packaging material - Google Patents

Abstract

FIELD: packaging.

SUBSTANCE: present invention relates to combined packaging material, which is a multilayer polymer roll or sheet product, each layer of which consists of polyolefin, but at the same time differs in both textile structure (fabric of flat polymer threads, polymer melt, non-woven polymer canvas) and surface density of each layer. Finished products for packaging of, preferably, food products – bags and containers of various types and sizes – are made of packaging material by means of heat sealing or stitching edges with polyolefin thread.

EFFECT: presented combined packaging roll or sheet material, as well as finished packaging units (bags, containers) made of the specified material are manufacturable and technically easy-to-made, allow for packaging and protecting products of different industries from outer unfavorable factors.

17 cl, 1 dwg, 1 tbl

Description

The present invention relates to a combined packaging material, which is a multilayer polymer roll or sheet product, each layer of which consists of a polyolefin, but differs both in textile structure (fabric of flat polymer filaments, polymer melt, non-woven polymer fabric) and surface density of each layer. From the packaging material, by means of heat sealing or stitching the edges with a polyolefin thread, final products are made for packaging, preferably food products - bags, containers of various sizes. The presented combined packaging roll or sheet material, as well as the final packaging units (bags, containers) made from the specified material, are technologically advanced and technically easy to manufacture, allow packaging and protecting products from various industries from external adverse factors.

Prerequisites for the invention

Known sheet material containing a layer of paper, on one side of which a polymer film is fixed with an adhesive composition, while the adhesive composition is applied in evenly distributed areas separated by gap areas, while the total area of \u200b\u200bthe areas with the adhesive composition is 20-95% of the total area sheet (RF patent for utility model No. 40998). Known material requires the use of complex manufacturing technology, as well as zoned application of adhesive.

Known sheet material containing at least three thermally bonded layers, of which the layer in contact with the product is made of polyethylene, the inner layer is made of food foil, or metallized propylene, or biaxially oriented polyamide film, and the outer layer is made of paper, or lavsan, or opaline polyethylene, or propylene, or polyester, or bioren (RF patent for utility model No. 94456). This packaging material requires the use of expensive foil as a barrier element.

Known sheet packaging material, preferably for packaging frozen food products, containing an outer paper layer (NPS), a layer of woven heat sealable polymer material (PT) made of interwoven polymer strips, and a continuous layer of heat sealable polymer (STP) placed between the NPS and PT , in which the mentioned NBS, PT and STP are interconnected by means of thermal welding (RF patent for utility model No. 124667). Such a packaging product is less technologically advanced and more difficult to manufacture, is a more expensive product, both due to the raw materials used, the instrumentation of the production process, energy intensity, and due to an increase in transportation costs due to a higher surface density and, consequently, the weight of the final packaging units, has lower consumer qualities in terms of mechanical strength, wear resistance, hydrophobicity, bioinertness and decorative effect.

The main purpose of the invention is to increase the range of packaging products with improved consumer qualities, to develop cost-effective, manufacturable and technically easy-to-manufacture flexible materials with increased mechanical strength, with higher protective properties from external adverse factors for packaging, mainly food products.

With the industrial application of this invention, the consumer receives a number of useful, primarily protective advantages for the packaged product, in comparison with traditionally used similar packaging materials:

1. The proposed composite material and products made from it have a higher mechanical and impact strength (resistance to tear, fracture, punching) due to the use of a polymeric non-woven fabric as the outer layer.

2. The material, as well as bags and containers made from it, are more resistant to adverse factors and environmental influences due to the chemical resistance of the polymer used in the manufacture, in comparison with bags with a paper outer layer (RF patent for utility model No. 124667). The proposed packaging is resistant to acids, alkalis, organic solvents from the environment, protects the product from UV rays, as well as from atmospheric oxygen, preventing the oxidation of fats, and ensures the preservation of the temperature regime of the packaged product. As a result, the shelf life of packaged food products, including frozen ones, is increased.

3. Due to the bioinertness of the polymer used, such packaging does not contribute to the growth of bacteria that may get from the atmosphere to the outer layer of the packaging, in comparison with the paper outer layer of cellulose. The packaging material is non-toxic, does not cause allergic reactions, is hypoallergenic.

4. The polymeric non-woven material of the outer layer of the packaging is hydrophobic . Due to the higher hydrophobicity of the non-woven fabric in the outer layer compared to paper, the proposed material protects the packaged product from moisture (unlike paper, additional hydrophobic treatment of the outer layer is not required) and provides vapor barrier. At the same time, the proposed packaging material is more resistant to abrasion in a dry and wet state, does not change its properties under the influence of climatic conditions.

5. The packaging multilayer material has heat resistance and frost resistance, which are determined by the properties of the polymer, and bags and containers made from it are suitable for operation at temperatures from minus 40 degrees Celsius to plus 100 degrees Celsius without loss of strength characteristics.

6. The proposed combined multilayer material and packaging products from it have greater flexibility and elasticity compared to packaging containing a paper layer, while maintaining high strength properties, both in the longitudinal and transverse directions.

7. Bags with packaged product do not slip during storage and stacking due to the outer layer of non-woven fabric.

8. The proposed packaging material is more decorative than traditional packaging with a paper outer layer, as it can be produced in a wide range of colors at the request of the consumer by dosing the dye during the production of a non-woven outer layer. This feature not only provides more decorative packaging units, but also allows the consumer to better identify the packaged products. In addition, colors such as turquoise (or aqua) reflect UV rays to a greater extent and allow, for example, the specific red color of frozen sea bass to be preserved during storage. On an external nonwoven layer drawing drawing (1-5 flowers) is possible.

9. The proposed polymeric material is more cost-effective both by reducing production costs (less consumption of raw materials due to lower surface density at sufficiently high strength indicators, lower costs for hardware design of the manufacturing process and energy costs), and due to lower transportation costs due to the lower weight of the packaging units.

To solve this problem, a combined polymeric packaging roll or sheet material (CPUM) has been developed, preferably for food packaging, the outer layer of which consists of a non-woven polymer fabric (NPP) with a surface density of 5 g/m ² to 100 g/m ² .

Nonwovens are produced by a polymer melt spinning process followed by thermal bonding of the nonwoven fabric in a single-stage continuous process. They are less expensive and have a number of advantages of an operational and economic nature, they are characterized by high wear resistance, profitability, the possibility of forming sheets with desired properties, and the advantages of a “strength-weight” combination.

Nonwoven fabrics in the outer layer are used to provide:

- high rates of mechanical, impact strength, they have a high resistance to tearing, breaking, punching. The breaking load of nonwovens in the longitudinal and transverse directions is not less than 30 H, the abrasion resistance is not less than 100 cycles; high strength characteristics increase the protective functions of the packaging material and ensure the safety of the packaged product;

- moisture resistance due to the hydrophobic properties of the polymer used; this is due to the low surface energy of the polymer raw material (30 cN/m), which does not allow non-woven materials to absorb water and aqueous solutions under the influence of adverse atmospheric factors, the hygroscopicity of the packaging material is close to zero; raw hydrophobicity of the non-woven outer layer of the packaging material does not require additional costs to impart moisture resistance, as is the case with the outer paper layer of traditionally used packaging for frozen products;

- resistance to adverse factors and environmental influences due to the chemical resistance of the polymer used in the manufacture; the proposed packaging is resistant to acids, alkalis, organic solvents from the environment, protects the product from UV rays, as well as from atmospheric oxygen, preventing the oxidation of fats, as a result, the shelf life of packaged food products, including frozen ones, increases;

- decorative functions due to the ability to be painted with dyes in a wide range of colors during molding; giving the packaging material different colors also allows the consumer to provide better identification of the packaged product; in addition, colors such as turquoise (or aquamarine) reflect UV rays to a greater extent and allow, for example, the specific red color of frozen sea bass to be preserved during storage; drawing on an external nonwoven layer drawing (1-5 flowers) is possible;

- reducing the cost of production and transportation of bags, containers.

The inner layer of the polymer package is made of a material woven on weaving equipment (PTM) by means of twill or plain weave of flat oriented polymer threads. The surface density of the fabric of the inner layer of the package is 20-150 g/m ² . The number of warp and weft threads of the fabric is at least 23 threads per 10 cm. The breaking load of the fabric along the warp and weft is at least 588 N.

The woven polymer layer gives the finished packaging product increased mechanical strength, impact resistance, high bending strength, fracture, punching strength, wear resistance, rigidity, dimensional stability, moisture resistance, and grease resistance.

The intermediate layer (ITP) is made of polyolefin, designed for gluing (heat sealing) between the inner and outer layers of the packaging roll or sheet product. When this TSP is a polymer melt, which is applied in a continuous layer with a surface density of 5-50 g/m ² .

Combined polymer packaging roll or sheet material (CPUM) has a multilayer structure with a total surface density of 58-180 g/m ² (the choice of surface density is determined by the consumer depending on the requirements for maintaining the quality of the packaged product). The physical and mechanical characteristics of the combined multilayer polymer packaging product are determined by the physical properties of the raw materials used, the physical and mechanical parameters specified and obtained during the production of the packaging product, both separately for each layer of the multilayer packaging structure, and the summarizing characteristics of the final packaging product.

Physical and mechanical characteristics of the multilayer packaging material and products based on it are presented in table 1:

Table 1

Name of indicator unit of measurement Indicator value Surface density g/m ² 30-300 Breaking load in the longitudinal and transverse directions, not less than H 686 Breaking load of the seam of the packing bag, not less than H 294 Number of fabric threads (inner layer) on warp and weft per 10 cm, not less than PC 23 Abrasion resistance of the non-woven outer layer, not less than cycles one hundred Hygroscopicity of outer non-woven layer ~0 Operating temperature without loss of strength properties degrees Celcius from minus 40 to plus 100 Warranty period of storage year one

Packing bags or containers of various sizes can be made from a combined polymeric roll or sheet packaging material, in which the edges of the polymeric material are connected by heat sealing or by seams on specialized equipment.

The industrial applicability of final packaging products (bags, containers) made of composite polymer material has a wide range. Bags, containers made of polymeric material can be used primarily for packaging food products, including frozen ones, as well as for packaging other granular, loose, requiring tightness, both food and technical products. In the case of packaging of food industry products, polymer packaging material is produced according to predetermined properties from a polymer approved for contact use in the food industry. The wide range of applications of the proposed invention is determined by a set of advantageous characteristics in comparison with traditionally used packaging bags and containers.

Requirements for sack packaging containers are defined by the interstate standard GOST 30090-93 "Sacks and sack fabrics".

Types and standard sizes of packaging units made of a combined polymeric material are determined depending on the packaged product (its dimensions, weight, structure, dimensions, shapes, the need for identification, requirements for warehousing, storage, as well as loading and unloading conditions).

The following types of bags are distinguished: flat, with folds, with an open or closed (valve) top, with a tucked and hemmed bottom, or with a rectangular bottom. Bags can be made by stitching, heat sealing (gluing).

The invention is illustrated with graphic material, where:

Fig.1 Layers of the combined polymeric material KPUM.

1. outer layer NPP - non-woven fabric;

2. intermediate layer TSP - melt;

3. The inner layer of the PTM is a woven material made of interlaced flat polymer threads.

The proposed technical solution is not known from the prior art from available sources of information, from which it clearly follows for a specialist, and can be practically implemented in mass production using conventional technology, that is, it meets the criteria for patentability.

Claims (17)

1. Combined multilayer polymeric roll or sheet packaging material for food packaging, mainly frozen, containing an outer layer of non-woven polymer fabric, in which the elongation of the non-woven polymer fabric at break in the longitudinal and transverse directions is not more than 150% and the non-woven polymer fabric has abrasion resistance of at least 100 cycles, as well as an inner layer of polymeric woven material made of interlaced polymeric strips, and a continuous layer of heat-sealing polymer placed between the non-woven polymeric fabric and the polymeric woven material. 2. The material according to claim 1, in which the layer of heat-sealable polymer between the non-woven polymer fabric and the polymer woven material is made in the form of a continuous laminating layer of a thermoplastic polymer melt, which performs the function of an inseparable hermetic connection of the outer non-woven polymer fabric and the inner polymer woven material in a multilayer combined polymer packaging material. 3. The material according to claim 1, characterized in that the outer (outer) layer of the non-woven polymer fabric consists of a non-woven fabric produced by the method of molding from a polymer melt, followed by thermal bonding of the non-woven fabric as part of a one-stage continuous technological process, and has a surface density of 5 ÷ 100 g/m ² , preferably from 10 to 50 g/m ² . 4. The material according to claim 1, in which the breaking load of the nonwoven polymer fabric in the longitudinal and transverse directions is at least 30 N. 5. The material according to claim 1, in which the layer of heat-sealable polymer between the non-woven polymer fabric and the polymer woven material is made in the form of a continuous laminating layer of a thermoplastic polymer melt, which performs the function of an inseparable hermetic connection of the outer non-woven polymer fabric and the inner polymer woven material in a multilayer combined polymer packaging material, and the non-woven polymer fabric is used dyed in a wide range of colors due to the dosing of the dye during its production. 6. The material according to claim 1, in which the layer of heat-sealable polymer between the non-woven polymer fabric and the polymer woven material is made in the form of a continuous laminating layer of a thermoplastic polymer melt, which performs the function of an inseparable hermetic connection of the outer non-woven polymer fabric and the inner polymer woven material in a multilayer combined polymer packaging material, and the non-woven polymer fabric is used dyed in a wide range of colors due to the dosing of the dye during its production, in which the non-woven polymer fabric, dyed and undyed, has additional graphic and / or letter images on the outside to identify the packaged product. 7. The fabric of claim 1 wherein the polymeric woven fabric has a plain, twill, satin and/or satin weave of strips of polymer by weaving on a weaving machine. 8. Material according to claim 1, wherein the strips of polymeric woven material are made of flat oriented polymeric filaments. 9. The material according to claim 1, in which the polymeric woven material has a surface density of 20-150 g/m ² . 10. The material according to claim 1, in which the polymeric woven material has a breaking load of the fabric on the warp and weft of at least 588 N. 11. The material according to claim 1, in which the heat-sealable polymer is made of a polyolefin intended for gluing (heat sealing) between the layers of the inner polymeric woven material and the outer non-woven polymeric fabric in the packaging roll or sheet product of the combined multilayer polymeric material. When this heat sealable polymer is a polymer melt, which is applied in a continuous layer with a surface density of 5-50 g/m ² . 12. Material according to claim 1, in which all layers are made of a polymer, preferably polypropylene, polyethylene or polyethylene terephthalate. 13. A bag for packaging foodstuffs, preferably frozen, made from a combined multilayer polymeric roll or sheet packaging material according to any one of claims 1 to 12. 14. The bag according to claim 13, in which the edges of the material from which it is made are interconnected by heat sealing on specialized equipment. 15. The bag according to claim 13, in which the edges of the material from which it is made are interconnected by means of seams made on specialized sewing equipment. 16. Packaging container for packaging foodstuffs, preferably frozen, formed from a roll or sheet packaging material according to any one of claims 1 to 12. 17. A stackable container for packaging food products, preferably frozen, containing a body made of corrugated cardboard, which is glued on the inside with a sheet product of a combined multilayer polymeric packaging material according to any one of claims 1 to 12.

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